Membrane gas/liquid contactor

The invention claimed is: 1. A fluid degassing apparatus, comprising: a module having a membrane disposed in a chamber and dividing said chamber into a permeate side and a retentate side, and said retentate side including: a first flow field configured to exert a first frictional flow restriction upon a fluid flow therethrough; a second flow field including a plurality of channels extending between and fluidically connected to said first flow field, said channels being separated from one another by respective dividers, each of said channels being configured to exert a channel frictional flow restriction upon the fluid flow therethrough received from the first flow field, wherein said first frictional flow restriction is less than a sum of said channel frictional flow restrictions. 2. A fluid degassing apparatus as in claim 1 wherein the fluid flow has a uniform membrane contact opportunity. 3. A fluid degassing apparatus as in claim 2 wherein said uniform membrane contact opportunity includes contact between the fluid flow and an entirety of a surface of said membrane that is exposed to said retentate side of said chamber. 4. A fluid degassing apparatus as in claim 3 wherein said first flow field has a first flow depth that is greater than a second flow depth of said second flow field. 5. A fluid degassing apparatus as in claim 1 , wherein each channel frictional flow restriction is substantially equal. 6. A fluid degassing apparatus as in claim 5 , including a diffuser disposed in said chamber at said permeate side between said membrane and a chamber wall. 7. A fluid degassing apparatus as in claim 6 , wherein said diffuser urges said membrane into contact with brace surfaces of said dividers. 8. A fluid degassing apparatus as in claim 7 wherein said brace surfaces are substantially planar, each brace surface being coextensive with a brace plane. 9. A fluid degassing apparatus as in claim 6 wherein said diffuser is porous to provide a diffuser frictional flow restriction upon a gas flow therethrough, said diffuser frictional flow restriction being less than 1 mm Hg. 10. A degassing apparatus, comprising: a module having a first plate connected to a second plate to define a degassing chamber therebetween, and a membrane secured between said first and second plates to separate said chamber into a permeate side and a retentate side, said first plate including a fluid flow path defined by a first flow field and a second flow field having a plurality of first channels of inequal channel profiles, said fluid flow path being configured to convey a fluid flow through the first and second flow fields and into contact with said membrane, said first flow field being configured to exert a first frictional flow resistance upon the fluid flow, and each of said channels in said second flow field being configured to exert a substantially equal channel frictional flow resistance upon the fluid flow to permit substantially uniform fluid flow distributed substantially equally to said channels along said second flow field while in contact with said membrane, wherein each of said first channels has a hydraulic diameter, determined by a width and a depth of said first channel, each of said first channels having a substantially equal hydraulic diameter. 11. A degassing apparatus as in claim 10 wherein each of said first channels has an equal channel depth. 12. A method for reducing a target gas concentration in a fluid, said method comprising: (a) providing a module as in claim 10 ; (b) motivating the fluid along the fluid flow path in contact with the membrane; and (c) reducing a partial pressure of the target gas in said permeate side of said chamber to a level that is lower than the target gas partial pressure in the fluid.